SU3764A1 - The method of electrolytic decomposition of salts - Google Patents

Description

Methods are known for the electrolytic decomposition of salts in baths with several liquid intermediate layers between the analyte and catalite, separated from each other by porous diaphragms; In the proposed method, an acid solution is used as an analyte, the anion of which is different from the anion of the salt to be decomposed and which may not decompose during electrolysis.

For the implementation of the proposed method, use the bath, shown schematically in the drawing in Eertikolt section.

Bath A is divided by three porous partitions B, B, S into four compartments, 2, 3, 4; C t D electrodes are inserted into extreme compartments 7 and 4. Separation 2 is filled with a solution of a degradable salt, and separation 4 is filled with an acid that does not degrade from electrolysis, for example, sulfuric acid, and with an anion other than the degraded salt anion, for example, KaCl, as indicated on the schematic drawing.

where as a catholyte a solution of NaOIl is applied, and the separation 3 is filled with a solution of 11C1.

With the passage of a constant electric current through the electrolytes in the direction indicated by arrows 5 and b, the anion SO of sulfuric acid in compartment 4, released on the electrode /), decomposes into sulfuric anhydride SO :; and oxygen 0. which freely leaves the electrode, and SOs, combined with water, again forms sulfuric acid; cation is ca caustic soda in the department. separating out on electrode C, decomposes water to form caustic soda and hydrogen 11-2, which, like gas, also freely leaves electrode C. Other cations and anions of all four electrolytes, receiving under the action of current certain directions of motion, as schematically depicted by arrows, and at the same time, striving to restore imbalance by electrolysis products constantly evolving on the electrodes, are interconnected, forming the corresponding dissolved substances in the porous partitions. The whole described electrolysis process is detected by the following phenomena: from the positive electrode / oxygen is released, from negative C is hydrogen, the density of sodium hydroxide solutions in the compartment and hydrochloric acid in the compartment .3 increases, the density of the sodium chloride solution in compartment 2 decreases and Finally, the density of the sulfuric acid solution 1) 1 in compartment 4 remains unchanged. TaKi-fM way, the amount of caustic soda and hydrochloric acid increases due to the corresponding amount of sodium chloride. The oxygen and hydrogen released at the electrodes are in this case by-products of production.

In the same way caustic soda and nitric acid can be obtained from sodium nitrate, if the compartments L 2. 3 and 4 baths A are filled with the JVaOlI, ,,, and ILSOi solutions and pass a constant electric current in the same ng-direction.

The described electrolytic salt decomposition method can be applied to obtain various products of the chemical industry.

SUBJECT OF THE PATENT.

The method of electrolytic decomposition of salts into alkali and acid using a bath divided by several porous diaphragms into a number of compartments, forming several liquid layers in series between the anode and cathode spaces, characterized by that. that as an analyte, an acid solution with an anion of a different composition than the anion of the decomposed salt is used, the solution of which, as it is consumed, is fed to compartment 2 adjacent to the catalyst.

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